kernel/mailbox.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2016 Wind River Systems, Inc.
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 /**
  * @brief Mailboxes.
  */

 #include <zephyr/kernel.h>
 #include <zephyr/kernel_structs.h>

 #include <zephyr/toolchain.h>
 #include <zephyr/linker/sections.h>
 #include <string.h>
 #include <zephyr/sys/dlist.h>
 #include <zephyr/init.h>
 /* private kernel APIs */
 #include <ksched.h>
 #include <kthread.h>
 #include <wait_q.h>

 #ifdef CONFIG_OBJ_CORE_MAILBOX
 static struct k_obj_type  obj_type_mailbox;
 #endif /* CONFIG_OBJ_CORE_MAILBOX */

 #if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0)

 /* asynchronous message descriptor type */
 struct k_mbox_async {
 	struct _thread_base thread;		/* dummy thread object */
 	struct k_mbox_msg tx_msg;	/* transmit message descriptor */
 };

 /* stack of unused asynchronous message descriptors */
 K_STACK_DEFINE(async_msg_free, CONFIG_NUM_MBOX_ASYNC_MSGS);

 /* allocate an asynchronous message descriptor */
 static inline void mbox_async_alloc(struct k_mbox_async **async)
 {
 	(void)k_stack_pop(&async_msg_free, (stack_data_t *)async, K_FOREVER);
 }

 /* free an asynchronous message descriptor */
 static inline void mbox_async_free(struct k_mbox_async *async)
 {
 	k_stack_push(&async_msg_free, (stack_data_t)async);
 }

 /*
  * Do run-time initialization of mailbox object subsystem.
  */
 static int init_mbox_module(void)
 {
 	/* array of asynchronous message descriptors */
 	static struct k_mbox_async __noinit async_msg[CONFIG_NUM_MBOX_ASYNC_MSGS];

 	/*
 	 * Create pool of asynchronous message descriptors.
 	 *
 	 * A dummy thread requires minimal initialization, since it never gets
 	 * to execute. The _THREAD_DUMMY flag is sufficient to distinguish a
 	 * dummy thread from a real one. The threads are *not* added to the
 	 * kernel's list of known threads.
 	 *
 	 * Once initialized, the address of each descriptor is added to a stack
 	 * that governs access to them.
 	 */

 	int i;

 	for (i = 0; i < CONFIG_NUM_MBOX_ASYNC_MSGS; i++) {
 		z_init_thread_base(&async_msg[i].thread, 0, _THREAD_DUMMY, 0);
 		k_stack_push(&async_msg_free, (stack_data_t)&async_msg[i]);
 	}

 	/* Complete initialization of statically defined mailboxes. */

 	return 0;
 }

 SYS_INIT(init_mbox_module, PRE_KERNEL_1, CONFIG_KERNEL_INIT_PRIORITY_OBJECTS);

 #endif /* CONFIG_NUM_MBOX_ASYNC_MSGS > 0 */

 void k_mbox_init(struct k_mbox *mbox)
 {
 	z_waitq_init(&mbox->tx_msg_queue);
 	z_waitq_init(&mbox->rx_msg_queue);
 	mbox->lock = (struct k_spinlock) {};

 #ifdef CONFIG_OBJ_CORE_MAILBOX
 	k_obj_core_init_and_link(K_OBJ_CORE(mbox), &obj_type_mailbox);
 #endif /* CONFIG_OBJ_CORE_MAILBOX */

 	SYS_PORT_TRACING_OBJ_INIT(k_mbox, mbox);
 }

 /**
  * @brief Check compatibility of sender's and receiver's message descriptors.
  *
  * Compares sender's and receiver's message descriptors to see if they are
  * compatible. If so, the descriptor fields are updated to reflect that a
  * match has occurred.
  *
  * @param tx_msg Pointer to transmit message descriptor.
  * @param rx_msg Pointer to receive message descriptor.
  *
  * @return 0 if successfully matched, otherwise -1.
  */
 static int mbox_message_match(struct k_mbox_msg *tx_msg,
 			       struct k_mbox_msg *rx_msg)
 {
 	uint32_t temp_info;

 	if (((tx_msg->tx_target_thread == (k_tid_t)K_ANY) ||
 	     (tx_msg->tx_target_thread == rx_msg->tx_target_thread)) &&
 	    ((rx_msg->rx_source_thread == (k_tid_t)K_ANY) ||
 	     (rx_msg->rx_source_thread == tx_msg->rx_source_thread))) {

 		/* update thread identifier fields for both descriptors */
 		rx_msg->rx_source_thread = tx_msg->rx_source_thread;
 		tx_msg->tx_target_thread = rx_msg->tx_target_thread;

 		/* update application info fields for both descriptors */
 		temp_info = rx_msg->info;
 		rx_msg->info = tx_msg->info;
 		tx_msg->info = temp_info;

 		/* update data size field for receiver only */
 		if (rx_msg->size > tx_msg->size) {
 			rx_msg->size = tx_msg->size;
 		}

 		/* update data location fields for receiver only */
 		rx_msg->tx_data = tx_msg->tx_data;

 		/* update syncing thread field for receiver only */
 		rx_msg->_syncing_thread = tx_msg->_syncing_thread;

 		return 0;
 	}

 	return -1;
 }

 /**
  * @brief Dispose of received message.
  *
  * Notifies the sender that message processing is complete.
  *
  * @param rx_msg Pointer to receive message descriptor.
  */
 static void mbox_message_dispose(struct k_mbox_msg *rx_msg)
 {
 	struct k_thread *sending_thread;
 	struct k_mbox_msg *tx_msg;

 	/* do nothing if message was disposed of when it was received */
 	if (rx_msg->_syncing_thread == NULL) {
 		return;
 	}

 	/* recover sender info */
 	sending_thread = rx_msg->_syncing_thread;
 	rx_msg->_syncing_thread = NULL;
 	tx_msg = (struct k_mbox_msg *)sending_thread->base.swap_data;

 	/* update data size field for sender */
 	tx_msg->size = rx_msg->size;

 #if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0)
 	/*
 	 * asynchronous send: free asynchronous message descriptor +
 	 * dummy thread pair, then give semaphore (if needed)
 	 */
 	if ((sending_thread->base.thread_state & _THREAD_DUMMY) != 0U) {
 		struct k_sem *async_sem = tx_msg->_async_sem;

 		mbox_async_free((struct k_mbox_async *)sending_thread);
 		if (async_sem != NULL) {
 			k_sem_give(async_sem);
 		}
 		return;
 	}
 #endif /* CONFIG_NUM_MBOX_ASYNC_MSGS */

 	/* synchronous send: wake up sending thread */
 	arch_thread_return_value_set(sending_thread, 0);
 	z_mark_thread_as_not_pending(sending_thread);
 	z_ready_thread(sending_thread);
 	z_reschedule_unlocked();
 }

 /**
  * @brief Send a mailbox message.
  *
  * Helper routine that handles both synchronous and asynchronous sends.
  *
  * @param mbox Pointer to the mailbox object.
  * @param tx_msg Pointer to transmit message descriptor.
  * @param timeout Maximum time (milliseconds) to wait for the message to be
  *        received (although not necessarily completely processed).
  *        Use K_NO_WAIT to return immediately, or K_FOREVER to wait as long
  *        as necessary.
  *
  * @return 0 if successful, -ENOMSG if failed immediately, -EAGAIN if timed out
  */
 static int mbox_message_put(struct k_mbox *mbox, struct k_mbox_msg *tx_msg,
 			     k_timeout_t timeout)
 {
 	struct k_thread *sending_thread;
 	struct k_thread *receiving_thread;
 	struct k_mbox_msg *rx_msg;
 	k_spinlock_key_t key;

 	/* save sender id so it can be used during message matching */
 	tx_msg->rx_source_thread = _current;

 	/* finish readying sending thread (actual or dummy) for send */
 	sending_thread = tx_msg->_syncing_thread;
 	sending_thread->base.swap_data = tx_msg;

 	/* search mailbox's rx queue for a compatible receiver */
 	key = k_spin_lock(&mbox->lock);

 	SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_mbox, message_put, mbox, timeout);

 	_WAIT_Q_FOR_EACH(&mbox->rx_msg_queue, receiving_thread) {
 		rx_msg = (struct k_mbox_msg *)receiving_thread->base.swap_data;

 		if (mbox_message_match(tx_msg, rx_msg) == 0) {
 			/* take receiver out of rx queue */
 			z_unpend_thread(receiving_thread);

 			/* ready receiver for execution */
 			arch_thread_return_value_set(receiving_thread, 0);
 			z_ready_thread(receiving_thread);

 #if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0)
 			/*
 			 * asynchronous send: swap out current thread
 			 * if receiver has priority, otherwise let it continue
 			 *
 			 * note: dummy sending thread sits (unqueued)
 			 * until the receiver consumes the message
 			 */
 			if ((sending_thread->base.thread_state & _THREAD_DUMMY)
 			    != 0U) {
 				z_reschedule(&mbox->lock, key);
 				return 0;
 			}
 #endif /* CONFIG_NUM_MBOX_ASYNC_MSGS */
 			SYS_PORT_TRACING_OBJ_FUNC_BLOCKING(k_mbox, message_put, mbox, timeout);

 			/*
 			 * synchronous send: pend current thread (unqueued)
 			 * until the receiver consumes the message
 			 */
 			int ret = z_pend_curr(&mbox->lock, key, NULL, K_FOREVER);

 			SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, message_put, mbox, timeout, ret);

 			return ret;
 		}
 	}

 	/* didn't find a matching receiver: don't wait for one */
 	if (K_TIMEOUT_EQ(timeout, K_NO_WAIT)) {
 		SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, message_put, mbox, timeout, -ENOMSG);

 		k_spin_unlock(&mbox->lock, key);
 		return -ENOMSG;
 	}

 #if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0)
 	/* asynchronous send: dummy thread waits on tx queue for receiver */
 	if ((sending_thread->base.thread_state & _THREAD_DUMMY) != 0U) {
 		z_pend_thread(sending_thread, &mbox->tx_msg_queue, K_FOREVER);
 		k_spin_unlock(&mbox->lock, key);
 		return 0;
 	}
 #endif /* CONFIG_NUM_MBOX_ASYNC_MSGS */
 	SYS_PORT_TRACING_OBJ_FUNC_BLOCKING(k_mbox, message_put, mbox, timeout);

 	/* synchronous send: sender waits on tx queue for receiver or timeout */
 	int ret = z_pend_curr(&mbox->lock, key, &mbox->tx_msg_queue, timeout);

 	SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, message_put, mbox, timeout, ret);

 	return ret;
 }

 int k_mbox_put(struct k_mbox *mbox, struct k_mbox_msg *tx_msg,
 	       k_timeout_t timeout)
 {
 	/* configure things for a synchronous send, then send the message */
 	tx_msg->_syncing_thread = _current;

 	SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_mbox, put, mbox, timeout);

 	int ret = mbox_message_put(mbox, tx_msg, timeout);

 	SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, put, mbox, timeout, ret);

 	return ret;
 }

 #if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0)
 void k_mbox_async_put(struct k_mbox *mbox, struct k_mbox_msg *tx_msg,
 		      struct k_sem *sem)
 {
 	struct k_mbox_async *async;

 	SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_mbox, async_put, mbox, sem);

 	/*
 	 * allocate an asynchronous message descriptor, configure both parts,
 	 * then send the message asynchronously
 	 */
 	mbox_async_alloc(&async);

 	async->thread.prio = _current->base.prio;

 	async->tx_msg = *tx_msg;
 	async->tx_msg._syncing_thread = (struct k_thread *)&async->thread;
 	async->tx_msg._async_sem = sem;

 	(void)mbox_message_put(mbox, &async->tx_msg, K_FOREVER);
 	SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, async_put, mbox, sem);
 }
 #endif /* CONFIG_NUM_MBOX_ASYNC_MSGS */

 void k_mbox_data_get(struct k_mbox_msg *rx_msg, void *buffer)
 {
 	/* handle case where data is to be discarded */
 	if (buffer == NULL) {
 		rx_msg->size = 0;
 		mbox_message_dispose(rx_msg);
 		return;
 	}

 	/* copy message data to buffer, then dispose of message */
 	if ((rx_msg->tx_data != NULL) && (rx_msg->size > 0U)) {
 		(void)memcpy(buffer, rx_msg->tx_data, rx_msg->size);
 	}
 	mbox_message_dispose(rx_msg);
 }

 /**
  * @brief Handle immediate consumption of received mailbox message data.
  *
  * Checks to see if received message data should be kept for later retrieval,
  * or if the data should consumed immediately and the message disposed of.
  *
  * The data is consumed immediately in either of the following cases:
  *     1) The receiver requested immediate retrieval by supplying a buffer
  *        to receive the data.
  *     2) There is no data to be retrieved. (i.e. Data size is 0 bytes.)
  *
  * @param rx_msg Pointer to receive message descriptor.
  * @param buffer Pointer to buffer to receive data.
  *
  * @return 0
  */
 static int mbox_message_data_check(struct k_mbox_msg *rx_msg, void *buffer)
 {
 	if (buffer != NULL) {
 		/* retrieve data now, then dispose of message */
 		k_mbox_data_get(rx_msg, buffer);
 	} else if (rx_msg->size == 0U) {
 		/* there is no data to get, so just dispose of message */
 		mbox_message_dispose(rx_msg);
 	} else {
 		/* keep message around for later data retrieval */
 	}

 	return 0;
 }

 int k_mbox_get(struct k_mbox *mbox, struct k_mbox_msg *rx_msg, void *buffer,
 	       k_timeout_t timeout)
 {
 	struct k_thread *sending_thread;
 	struct k_mbox_msg *tx_msg;
 	k_spinlock_key_t key;
 	int result;

 	/* save receiver id so it can be used during message matching */
 	rx_msg->tx_target_thread = _current;

 	/* search mailbox's tx queue for a compatible sender */
 	key = k_spin_lock(&mbox->lock);

 	SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_mbox, get, mbox, timeout);

 	_WAIT_Q_FOR_EACH(&mbox->tx_msg_queue, sending_thread) {
 		tx_msg = (struct k_mbox_msg *)sending_thread->base.swap_data;

 		if (mbox_message_match(tx_msg, rx_msg) == 0) {
 			/* take sender out of mailbox's tx queue */
 			z_unpend_thread(sending_thread);

 			k_spin_unlock(&mbox->lock, key);

 			/* consume message data immediately, if needed */
 			result = mbox_message_data_check(rx_msg, buffer);

 			SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, get, mbox, timeout, result);
 			return result;
 		}
 	}

 	/* didn't find a matching sender */

 	if (K_TIMEOUT_EQ(timeout, K_NO_WAIT)) {
 		SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, get, mbox, timeout, -ENOMSG);

 		/* don't wait for a matching sender to appear */
 		k_spin_unlock(&mbox->lock, key);
 		return -ENOMSG;
 	}

 	SYS_PORT_TRACING_OBJ_FUNC_BLOCKING(k_mbox, get, mbox, timeout);

 	/* wait until a matching sender appears or a timeout occurs */
 	_current->base.swap_data = rx_msg;
 	result = z_pend_curr(&mbox->lock, key, &mbox->rx_msg_queue, timeout);

 	/* consume message data immediately, if needed */
 	if (result == 0) {
 		result = mbox_message_data_check(rx_msg, buffer);
 	}

 	SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, get, mbox, timeout, result);

 	return result;
 }

 #ifdef CONFIG_OBJ_CORE_MAILBOX

 static int init_mailbox_obj_core_list(void)
 {
 	/* Initialize mailbox object type */

 	z_obj_type_init(&obj_type_mailbox, K_OBJ_TYPE_MBOX_ID,
 			offsetof(struct k_mbox, obj_core));

 	/* Initialize and link statically defined mailboxes */

 	STRUCT_SECTION_FOREACH(k_mbox, mbox) {
 		k_obj_core_init_and_link(K_OBJ_CORE(mbox), &obj_type_mailbox);
 	}

 	return 0;
 }

 SYS_INIT(init_mailbox_obj_core_list, PRE_KERNEL_1,
 	 CONFIG_KERNEL_INIT_PRIORITY_OBJECTS);
 #endif /* CONFIG_OBJ_CORE_MAILBOX */
	/*
	* Copyright (c) 2016 Wind River Systems, Inc.
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	/**
	* @brief Mailboxes.
	*/

	#include <zephyr/kernel.h>
	#include <zephyr/kernel_structs.h>

	#include <zephyr/toolchain.h>
	#include <zephyr/linker/sections.h>
	#include <string.h>
	#include <zephyr/sys/dlist.h>
	#include <zephyr/init.h>
	/* private kernel APIs */
	#include <ksched.h>
	#include <kthread.h>
	#include <wait_q.h>

	#ifdef CONFIG_OBJ_CORE_MAILBOX
	static struct k_obj_type obj_type_mailbox;
	#endif /* CONFIG_OBJ_CORE_MAILBOX */

	#if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0)

	/* asynchronous message descriptor type */
	struct k_mbox_async {
	struct _thread_base thread; /* dummy thread object */
	struct k_mbox_msg tx_msg; /* transmit message descriptor */
	};

	/* stack of unused asynchronous message descriptors */
	K_STACK_DEFINE(async_msg_free, CONFIG_NUM_MBOX_ASYNC_MSGS);

	/* allocate an asynchronous message descriptor */
	static inline void mbox_async_alloc(struct k_mbox_async **async)
	{
	(void)k_stack_pop(&async_msg_free, (stack_data_t *)async, K_FOREVER);
	}

	/* free an asynchronous message descriptor */
	static inline void mbox_async_free(struct k_mbox_async *async)
	{
	k_stack_push(&async_msg_free, (stack_data_t)async);
	}

	/*
	* Do run-time initialization of mailbox object subsystem.
	*/
	static int init_mbox_module(void)
	{
	/* array of asynchronous message descriptors */
	static struct k_mbox_async __noinit async_msg[CONFIG_NUM_MBOX_ASYNC_MSGS];

	/*
	* Create pool of asynchronous message descriptors.
	*
	* A dummy thread requires minimal initialization, since it never gets
	* to execute. The _THREAD_DUMMY flag is sufficient to distinguish a
	* dummy thread from a real one. The threads are not added to the
	* kernel's list of known threads.
	*
	* Once initialized, the address of each descriptor is added to a stack
	* that governs access to them.
	*/

	int i;

	for (i = 0; i < CONFIG_NUM_MBOX_ASYNC_MSGS; i++) {
	z_init_thread_base(&async_msg[i].thread, 0, _THREAD_DUMMY, 0);
	k_stack_push(&async_msg_free, (stack_data_t)&async_msg[i]);
	}

	/* Complete initialization of statically defined mailboxes. */

	return 0;
	}

	SYS_INIT(init_mbox_module, PRE_KERNEL_1, CONFIG_KERNEL_INIT_PRIORITY_OBJECTS);

	#endif /* CONFIG_NUM_MBOX_ASYNC_MSGS > 0 */

	void k_mbox_init(struct k_mbox *mbox)
	{
	z_waitq_init(&mbox->tx_msg_queue);
	z_waitq_init(&mbox->rx_msg_queue);
	mbox->lock = (struct k_spinlock) {};

	#ifdef CONFIG_OBJ_CORE_MAILBOX
	k_obj_core_init_and_link(K_OBJ_CORE(mbox), &obj_type_mailbox);
	#endif /* CONFIG_OBJ_CORE_MAILBOX */

	SYS_PORT_TRACING_OBJ_INIT(k_mbox, mbox);
	}

	/**
	* @brief Check compatibility of sender's and receiver's message descriptors.
	*
	* Compares sender's and receiver's message descriptors to see if they are
	* compatible. If so, the descriptor fields are updated to reflect that a
	* match has occurred.
	*
	* @param tx_msg Pointer to transmit message descriptor.
	* @param rx_msg Pointer to receive message descriptor.
	*
	* @return 0 if successfully matched, otherwise -1.
	*/
	static int mbox_message_match(struct k_mbox_msg *tx_msg,
	struct k_mbox_msg *rx_msg)
	{
	uint32_t temp_info;

	if (((tx_msg->tx_target_thread == (k_tid_t)K_ANY) \|\|
	(tx_msg->tx_target_thread == rx_msg->tx_target_thread)) &&
	((rx_msg->rx_source_thread == (k_tid_t)K_ANY) \|\|
	(rx_msg->rx_source_thread == tx_msg->rx_source_thread))) {

	/* update thread identifier fields for both descriptors */
	rx_msg->rx_source_thread = tx_msg->rx_source_thread;
	tx_msg->tx_target_thread = rx_msg->tx_target_thread;

	/* update application info fields for both descriptors */
	temp_info = rx_msg->info;
	rx_msg->info = tx_msg->info;
	tx_msg->info = temp_info;

	/* update data size field for receiver only */
	if (rx_msg->size > tx_msg->size) {
	rx_msg->size = tx_msg->size;
	}

	/* update data location fields for receiver only */
	rx_msg->tx_data = tx_msg->tx_data;

	/* update syncing thread field for receiver only */
	rx_msg->_syncing_thread = tx_msg->_syncing_thread;

	return 0;
	}

	return -1;
	}

	/**
	* @brief Dispose of received message.
	*
	* Notifies the sender that message processing is complete.
	*
	* @param rx_msg Pointer to receive message descriptor.
	*/
	static void mbox_message_dispose(struct k_mbox_msg *rx_msg)
	{
	struct k_thread *sending_thread;
	struct k_mbox_msg *tx_msg;

	/* do nothing if message was disposed of when it was received */
	if (rx_msg->_syncing_thread == NULL) {
	return;
	}

	/* recover sender info */
	sending_thread = rx_msg->_syncing_thread;
	rx_msg->_syncing_thread = NULL;
	tx_msg = (struct k_mbox_msg *)sending_thread->base.swap_data;

	/* update data size field for sender */
	tx_msg->size = rx_msg->size;

	#if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0)
	/*
	* asynchronous send: free asynchronous message descriptor +
	* dummy thread pair, then give semaphore (if needed)
	*/
	if ((sending_thread->base.thread_state & _THREAD_DUMMY) != 0U) {
	struct k_sem *async_sem = tx_msg->_async_sem;

	mbox_async_free((struct k_mbox_async *)sending_thread);
	if (async_sem != NULL) {
	k_sem_give(async_sem);
	}
	return;
	}
	#endif /* CONFIG_NUM_MBOX_ASYNC_MSGS */

	/* synchronous send: wake up sending thread */
	arch_thread_return_value_set(sending_thread, 0);
	z_mark_thread_as_not_pending(sending_thread);
	z_ready_thread(sending_thread);
	z_reschedule_unlocked();
	}

	/**
	* @brief Send a mailbox message.
	*
	* Helper routine that handles both synchronous and asynchronous sends.
	*
	* @param mbox Pointer to the mailbox object.
	* @param tx_msg Pointer to transmit message descriptor.
	* @param timeout Maximum time (milliseconds) to wait for the message to be
	* received (although not necessarily completely processed).
	* Use K_NO_WAIT to return immediately, or K_FOREVER to wait as long
	* as necessary.
	*
	* @return 0 if successful, -ENOMSG if failed immediately, -EAGAIN if timed out
	*/
	static int mbox_message_put(struct k_mbox mbox, struct k_mbox_msg tx_msg,
	k_timeout_t timeout)
	{
	struct k_thread *sending_thread;
	struct k_thread *receiving_thread;
	struct k_mbox_msg *rx_msg;
	k_spinlock_key_t key;

	/* save sender id so it can be used during message matching */
	tx_msg->rx_source_thread = _current;

	/* finish readying sending thread (actual or dummy) for send */
	sending_thread = tx_msg->_syncing_thread;
	sending_thread->base.swap_data = tx_msg;

	/* search mailbox's rx queue for a compatible receiver */
	key = k_spin_lock(&mbox->lock);

	SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_mbox, message_put, mbox, timeout);

	_WAIT_Q_FOR_EACH(&mbox->rx_msg_queue, receiving_thread) {
	rx_msg = (struct k_mbox_msg *)receiving_thread->base.swap_data;

	if (mbox_message_match(tx_msg, rx_msg) == 0) {
	/* take receiver out of rx queue */
	z_unpend_thread(receiving_thread);

	/* ready receiver for execution */
	arch_thread_return_value_set(receiving_thread, 0);
	z_ready_thread(receiving_thread);

	#if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0)
	/*
	* asynchronous send: swap out current thread
	* if receiver has priority, otherwise let it continue
	*
	* note: dummy sending thread sits (unqueued)
	* until the receiver consumes the message
	*/
	if ((sending_thread->base.thread_state & _THREAD_DUMMY)
	!= 0U) {
	z_reschedule(&mbox->lock, key);
	return 0;
	}
	#endif /* CONFIG_NUM_MBOX_ASYNC_MSGS */
	SYS_PORT_TRACING_OBJ_FUNC_BLOCKING(k_mbox, message_put, mbox, timeout);

	/*
	* synchronous send: pend current thread (unqueued)
	* until the receiver consumes the message
	*/
	int ret = z_pend_curr(&mbox->lock, key, NULL, K_FOREVER);

	SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, message_put, mbox, timeout, ret);

	return ret;
	}
	}

	/* didn't find a matching receiver: don't wait for one */
	if (K_TIMEOUT_EQ(timeout, K_NO_WAIT)) {
	SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, message_put, mbox, timeout, -ENOMSG);

	k_spin_unlock(&mbox->lock, key);
	return -ENOMSG;
	}

	#if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0)
	/* asynchronous send: dummy thread waits on tx queue for receiver */
	if ((sending_thread->base.thread_state & _THREAD_DUMMY) != 0U) {
	z_pend_thread(sending_thread, &mbox->tx_msg_queue, K_FOREVER);
	k_spin_unlock(&mbox->lock, key);
	return 0;
	}
	#endif /* CONFIG_NUM_MBOX_ASYNC_MSGS */
	SYS_PORT_TRACING_OBJ_FUNC_BLOCKING(k_mbox, message_put, mbox, timeout);

	/* synchronous send: sender waits on tx queue for receiver or timeout */
	int ret = z_pend_curr(&mbox->lock, key, &mbox->tx_msg_queue, timeout);

	SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, message_put, mbox, timeout, ret);

	return ret;
	}

	int k_mbox_put(struct k_mbox mbox, struct k_mbox_msg tx_msg,
	k_timeout_t timeout)
	{
	/* configure things for a synchronous send, then send the message */
	tx_msg->_syncing_thread = _current;

	SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_mbox, put, mbox, timeout);

	int ret = mbox_message_put(mbox, tx_msg, timeout);

	SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, put, mbox, timeout, ret);

	return ret;
	}

	#if (CONFIG_NUM_MBOX_ASYNC_MSGS > 0)
	void k_mbox_async_put(struct k_mbox mbox, struct k_mbox_msg tx_msg,
	struct k_sem *sem)
	{
	struct k_mbox_async *async;

	SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_mbox, async_put, mbox, sem);

	/*
	* allocate an asynchronous message descriptor, configure both parts,
	* then send the message asynchronously
	*/
	mbox_async_alloc(&async);

	async->thread.prio = _current->base.prio;

	async->tx_msg = *tx_msg;
	async->tx_msg._syncing_thread = (struct k_thread *)&async->thread;
	async->tx_msg._async_sem = sem;

	(void)mbox_message_put(mbox, &async->tx_msg, K_FOREVER);
	SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, async_put, mbox, sem);
	}
	#endif /* CONFIG_NUM_MBOX_ASYNC_MSGS */

	void k_mbox_data_get(struct k_mbox_msg rx_msg, void buffer)
	{
	/* handle case where data is to be discarded */
	if (buffer == NULL) {
	rx_msg->size = 0;
	mbox_message_dispose(rx_msg);
	return;
	}

	/* copy message data to buffer, then dispose of message */
	if ((rx_msg->tx_data != NULL) && (rx_msg->size > 0U)) {
	(void)memcpy(buffer, rx_msg->tx_data, rx_msg->size);
	}
	mbox_message_dispose(rx_msg);
	}

	/**
	* @brief Handle immediate consumption of received mailbox message data.
	*
	* Checks to see if received message data should be kept for later retrieval,
	* or if the data should consumed immediately and the message disposed of.
	*
	* The data is consumed immediately in either of the following cases:
	* 1) The receiver requested immediate retrieval by supplying a buffer
	* to receive the data.
	* 2) There is no data to be retrieved. (i.e. Data size is 0 bytes.)
	*
	* @param rx_msg Pointer to receive message descriptor.
	* @param buffer Pointer to buffer to receive data.
	*
	* @return 0
	*/
	static int mbox_message_data_check(struct k_mbox_msg rx_msg, void buffer)
	{
	if (buffer != NULL) {
	/* retrieve data now, then dispose of message */
	k_mbox_data_get(rx_msg, buffer);
	} else if (rx_msg->size == 0U) {
	/* there is no data to get, so just dispose of message */
	mbox_message_dispose(rx_msg);
	} else {
	/* keep message around for later data retrieval */
	}

	return 0;
	}

	int k_mbox_get(struct k_mbox mbox, struct k_mbox_msg rx_msg, void *buffer,
	k_timeout_t timeout)
	{
	struct k_thread *sending_thread;
	struct k_mbox_msg *tx_msg;
	k_spinlock_key_t key;
	int result;

	/* save receiver id so it can be used during message matching */
	rx_msg->tx_target_thread = _current;

	/* search mailbox's tx queue for a compatible sender */
	key = k_spin_lock(&mbox->lock);

	SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_mbox, get, mbox, timeout);

	_WAIT_Q_FOR_EACH(&mbox->tx_msg_queue, sending_thread) {
	tx_msg = (struct k_mbox_msg *)sending_thread->base.swap_data;

	if (mbox_message_match(tx_msg, rx_msg) == 0) {
	/* take sender out of mailbox's tx queue */
	z_unpend_thread(sending_thread);

	k_spin_unlock(&mbox->lock, key);

	/* consume message data immediately, if needed */
	result = mbox_message_data_check(rx_msg, buffer);

	SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, get, mbox, timeout, result);
	return result;
	}
	}

	/* didn't find a matching sender */

	if (K_TIMEOUT_EQ(timeout, K_NO_WAIT)) {
	SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, get, mbox, timeout, -ENOMSG);

	/* don't wait for a matching sender to appear */
	k_spin_unlock(&mbox->lock, key);
	return -ENOMSG;
	}

	SYS_PORT_TRACING_OBJ_FUNC_BLOCKING(k_mbox, get, mbox, timeout);

	/* wait until a matching sender appears or a timeout occurs */
	_current->base.swap_data = rx_msg;
	result = z_pend_curr(&mbox->lock, key, &mbox->rx_msg_queue, timeout);

	/* consume message data immediately, if needed */
	if (result == 0) {
	result = mbox_message_data_check(rx_msg, buffer);
	}

	SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_mbox, get, mbox, timeout, result);

	return result;
	}

	#ifdef CONFIG_OBJ_CORE_MAILBOX

	static int init_mailbox_obj_core_list(void)
	{
	/* Initialize mailbox object type */

	z_obj_type_init(&obj_type_mailbox, K_OBJ_TYPE_MBOX_ID,
	offsetof(struct k_mbox, obj_core));

	/* Initialize and link statically defined mailboxes */

	STRUCT_SECTION_FOREACH(k_mbox, mbox) {
	k_obj_core_init_and_link(K_OBJ_CORE(mbox), &obj_type_mailbox);
	}

	return 0;
	}

	SYS_INIT(init_mailbox_obj_core_list, PRE_KERNEL_1,
	CONFIG_KERNEL_INIT_PRIORITY_OBJECTS);
	#endif /* CONFIG_OBJ_CORE_MAILBOX */